Welcome back to our comprehensive engineering mechanics course! In this second installment, we're diving deeper into the fundamental concepts and applications of this essential subject.
Key topics covered in this video include:
Equilibrium of Rigid Bodies: Explore the conditions necessary for a rigid body to be in static equilibrium, including translational and rotational equilibrium.
Internal Forces and Moments: Learn how to analyze the internal forces and moments within a structure, such as beams, trusses, and frames.
Method of Sections: Discover the method of sections for determining internal forces in indeterminate structures.
Virtual Work: Understand the principle of virtual work and its application in solving problems involving equilibrium and stability.
Kinematics of Particles: Explore the motion of a particle, including velocity, acceleration, and displacement.
Kinetics of Particles: Analyze the forces acting on a particle and their relationship to its motion.
Whether you're a student preparing for exams or an engineer looking to refresh your knowledge, this video will provide you with a clear and concise understanding of engineering mechanics concepts. Join us as we break down complex topics into easy-to-follow explanations and practical examples.
Don't forget to subscribe to our channel for more engineering tutorials and resources!
0:00 - force reactions at joints
2:30 - RIGID-BODY EQUILIBRIUM
4:26 - RIGID BODY EQUILIBRIUM PROBLEMS
6:23 - A FREE BODY DIAGRAM
8:33 - SUPPORT REACTIONS IN 2-D
21:29 - Reactions at Supports & Connections
38:09 - Reactions at Supports & Connections
47:22 - Example 61
1:03:48 - Example 62
1:12:31 - Example 63
1:20:20 - Example 64
1:23:35 - Example 65
1:27:59 - Example 60
1:29:51 - Determine the forces at joints
1:31:07 - EQUATIONS OF EQUILIBRIUM
1:31:57 - TWO-FORCE MEMBERS & EXAMPLES
1:36:32 - STEPS FOR SOLVING 2-D EQUILIBRIUM PROBLEMS
1:41:30 - Example 61
1:52:20 - Example 62
1:59:22 - Example 63
2:06:08 - Example 64
2:13:47 - Example 65
2:17:36 - Example 66
2:25:50 - Example 67
2:36:51 - Example 68
2:49:44 - SUPPORT REACTIONS IN 3-D
2:58:02 - 3-D Connections & 3-D Structural Connections
3:13:50 - 3D-Support Reactions and Equations of Equilibrium
3:17:35 - CONSTRAINTS FOR A RIGID BODY & IMPROPER CONSTRAINTS
3:22:41 - Example 69
3:29:36 - Example 70
3:33:58 - Example 71
3:38:12 - Example 72
3:41:50 - Example 73
3:54:46 - Free Body Diagram of Piston Assembly - Reciprocating Engine
3:55:00 - Truss and Planar Trusses
3:59:19 - Basic Truss Element
4:01:56 - Simple Truss
4:21:57 - Analysis of Trusses & Machines
4:26:51 - Method of Joints
4:34:43 - External Equilibrium
4:50:35 - Example 74
5:01:15 - Example 75
5:06:53 - ZERO-FORCE MEMBERS
5:32:02 - Example 76
5:39:58 - Example 77
5:54:49 - Frames and Machines
6:01:02 - Frames VS Machines
6:02:30 - STEPS FOR ANALYZING A FRAME OR MACHINE
6:10:52 - FBDs of Reciprocating Engine (IC Engine)
6:23:21 - FBDs of pulley System
6:24:00 - FBDs of Swing
6:27:25 - FBDs of Pliers
6:31:18 - A frame and loads
6:34:49 - Example 78
6:36:16 - Example 79
6:45:03 - Example 80
6:47:28 - Example 81
6:55:33 - Example 82
7:03:08 - Method of Sections
7:08:37 - Example 83
7:21:06 - Example 84
7:26:32 - Example 85
7:30:59 - Example 86 Space Truss
7:37:48 - Friction and its Applications
7:39:17 - CHARACTERISTICS OF DRY FRICTION
7:46:52 - FRICTION CHARACERISTICS
8:15:55 - Angle of Friction
8:20:57 - Coefficient of friction
8:25:48 - Procedure for Analysis of dry friction
8:30:24 - IMPENDING TIPPING versus SLIPPING
8:49:53 - IMPENDING TIPPING versus SLIPPING - Part 2
8:58:49 - Example 87
9:03:14 - Example 88
9:04:51 - Example 89
9:15:28 - Example 90
9:19:33 - Example 91
9:30:00 - Example 92
9:36:32 - Example 93
9:41:20 - Example 94
9:45:11 - Center of Gravity and Centroids
9:46:03 - Center of Gravity, CG
9:48:58 - Concept of Centroid & its location
10:04:26 - Centroid Location of Complex Shapes
10:15:32 - Example 95
10:20:56 - Example 96
10:25:59 - Example 97
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